Alpha band frontal connectivity is a state-specific electroencephalographic correlate of unresponsiveness during exposure to dexmedetomidine and propofol.

[1]  G. Mashour,et al.  Level of Consciousness Is Dissociable from Electroencephalographic Measures of Cortical Connectivity, Slow Oscillations, and Complexity , 2019, The Journal of Neuroscience.

[2]  G. Mashour,et al.  Dynamic Cortical Connectivity during General Anesthesia in Surgical Patients , 2019, Anesthesiology.

[3]  George A. Mashour,et al.  Dynamic Cortical Connectivity during General Anesthesia in Healthy Volunteers , 2019, Anesthesiology.

[4]  S. Dehaene,et al.  Resting-state Dynamics as a Cortical Signature of Anesthesia in Monkeys , 2018, Anesthesiology.

[5]  A. Revonsuo,et al.  Dreaming and awareness during dexmedetomidine‐ and propofol‐induced unresponsiveness , 2018, British journal of anaesthesia.

[6]  G. Mashour,et al.  Differentiating Drug-related and State-related Effects of Dexmedetomidine and Propofol on the Electroencephalogram , 2018, Anesthesiology.

[7]  A. Revonsuo,et al.  Spoken words are processed during dexmedetomidine‐induced unresponsiveness , 2018, British journal of anaesthesia.

[8]  J. Sleigh,et al.  Frontal alpha-delta EEG does not preclude volitional response during anaesthesia: prospective cohort study of the isolated forearm technique , 2017, British journal of anaesthesia.

[9]  Byung-Moon Choi,et al.  Diversity of functional connectivity patterns is reduced in propofol‐induced unconsciousness , 2017, Human brain mapping.

[10]  George A. Mashour,et al.  Neurophysiologic Correlates of Ketamine Sedation and Anesthesia: A High-density Electroencephalography Study in Healthy Volunteers , 2017, Anesthesiology.

[11]  Anthony G. Hudetz,et al.  Propofol attenuates low-frequency fluctuations of resting-state fMRI BOLD signal in the anterior frontal cortex upon loss of consciousness , 2017, NeuroImage.

[12]  G. Mashour,et al.  Neural Correlates of Sevoflurane-induced Unconsciousness Identified by Simultaneous Functional Magnetic Resonance Imaging and Electroencephalography , 2016, Anesthesiology.

[13]  Emery N Brown,et al.  Spatiotemporal Dynamics of Dexmedetomidine-Induced Electroencephalogram Oscillations , 2016, PloS one.

[14]  Athena Demertzi,et al.  Propofol-Induced Frontal Cortex Disconnection: A Study of Resting-State Networks, Total Brain Connectivity, and Mean BOLD Signal Oscillation Frequencies , 2016, Brain Connect..

[15]  Anthony G. Hudetz,et al.  Functional and Topological Conditions for Explosive Synchronization Develop in Human Brain Networks with the Onset of Anesthetic-Induced Unconsciousness , 2016, Front. Comput. Neurosci..

[16]  Ram Adapa,et al.  Brain Connectivity Dissociates Responsiveness from Drug Exposure during Propofol-Induced Transitions of Consciousness , 2016, PLoS Comput. Biol..

[17]  E. Brown,et al.  Clinical Electroencephalography for Anesthesiologists: Part I Background and Basic Signatures , 2015, Anesthesiology.

[18]  Michael J. Prerau,et al.  A Comparison of Propofol- and Dexmedetomidine-induced Electroencephalogram Dynamics Using Spectral and Coherence Analysis , 2014, Anesthesiology.

[19]  E. Brown,et al.  Effects of Sevoflurane and Propofol on Frontal Electroencephalogram Power and Coherence , 2014, Anesthesiology.

[20]  George A. Mashour,et al.  Electroencephalographic effects of ketamine on power, cross-frequency coupling, and connectivity in the alpha bandwidth , 2014, Front. Syst. Neurosci..

[21]  Gerhard Schneider,et al.  Fronto-Parietal Connectivity Is a Non-Static Phenomenon with Characteristic Changes during Unconsciousness , 2014, PloS one.

[22]  UnCheol Lee,et al.  Reconfiguration of Network Hub Structure after Propofol-induced Unconsciousness , 2013, Anesthesiology.

[23]  Bernhard Hemmer,et al.  Simultaneous Electroencephalographic and Functional Magnetic Resonance Imaging Indicate Impaired Cortical Top–Down Processing in Association with Anesthetic-induced Unconsciousness , 2013, Anesthesiology.

[24]  E. Brown,et al.  Thalamocortical Mechanisms for the Anteriorization of Alpha Rhythms during Propofol-Induced Unconsciousness , 2013, The Journal of Neuroscience.

[25]  UnCheol Lee,et al.  Disruption of Frontal–Parietal Communication by Ketamine, Propofol, and Sevoflurane , 2013, Anesthesiology.

[26]  Emery N. Brown,et al.  Electroencephalogram signatures of loss and recovery of consciousness from propofol , 2013, Proceedings of the National Academy of Sciences.

[27]  Manuel S. Schröter,et al.  Spatiotemporal Reconfiguration of Large-Scale Brain Functional Networks during Propofol-Induced Loss of Consciousness , 2012, The Journal of Neuroscience.

[28]  Cornelis J. Stam,et al.  Go with the flow: Use of a directed phase lag index (dPLI) to characterize patterns of phase relations in a large-scale model of brain dynamics , 2012, NeuroImage.

[29]  Karl J. Friston,et al.  Behavioral / Systems / Cognitive Connectivity Changes Underlying Spectral EEG Changes during Propofol-Induced Loss of Consciousness , 2012 .

[30]  A. Engel,et al.  Cortical Hypersynchrony Predicts Breakdown of Sensory Processing during Loss of Consciousness , 2011, Current Biology.

[31]  UnCheol Lee,et al.  Preferential Inhibition of Frontal-to-Parietal Feedback Connectivity Is a Neurophysiologic Correlate of General Anesthesia in Surgical Patients , 2011, PloS one.

[32]  Robert Oostenveld,et al.  An improved index of phase-synchronization for electrophysiological data in the presence of volume-conduction, noise and sample-size bias , 2011, NeuroImage.

[33]  P. G. Larsson,et al.  Reducing the bias of causality measures. , 2011, Physical review. E, Statistical, nonlinear, and soft matter physics.

[34]  Robert Oostenveld,et al.  FieldTrip: Open Source Software for Advanced Analysis of MEG, EEG, and Invasive Electrophysiological Data , 2010, Comput. Intell. Neurosci..

[35]  E. Brown,et al.  Thalamocortical model for a propofol-induced α-rhythm associated with loss of consciousness , 2010, Proceedings of the National Academy of Sciences.

[36]  Xiaoping Hu,et al.  Altered local coherence in the default mode network due to sevoflurane anesthesia , 2010, Brain Research.

[37]  UnCheol Lee,et al.  The directionality and functional organization of frontoparietal connectivity during consciousness and anesthesia in humans , 2009, Consciousness and Cognition.

[38]  Bijan Pesaran,et al.  Chronux: a platform for analyzing neural signals , 2009, BMC Neuroscience.

[39]  N. T. Smith,et al.  A measure of association for assessing prediction accuracy that is a generalization of non-parametric ROC area. , 1996, Statistics in medicine.

[40]  Warren D. Smith,et al.  Measuring the Performance of Anesthetic Depth Indicators , 1996, Anesthesiology.

[41]  F. Perrin,et al.  Spherical splines for scalp potential and current density mapping. , 1989, Electroencephalography and clinical neurophysiology.